C# Class Peasant.Functions

Afficher le fichier Open project: ryick-V/Chuukaku

Méthodes publiques

Méthode	Description
Eulero_Angles ( float sampwin, int sensor_index ) : ].float[
EventsCsv ( string events, string path ) : void
Incremental_Ratio ( float sequence ) : float[]
Integral_Space ( float velocity, double frequency, double read_window ) : float[]
Integral_Velocity ( float values, double frequency, double read_window ) : float[]
Mean ( float sequence, int start_index, int end_index ) : float
Mod ( float sampwin, int sensor_index, int start_index, int end_index ) : float[]
Pitch_Angles ( float sampwin, int sensor_index ) : float[]
Roll_Angles ( float sampwin, int sensor_index ) : float[]
Smooth ( float sequence, int window ) : float[]
Standard_Deviation ( float sequence, int window ) : float[]
Yaw_Angles ( float sampwin, int sensor_index ) : float[]
Zupt_Algorithm ( float sampwin, int sensor_index, double frequency, double read_window ) : float[]
createCsv ( float sampwin, string path ) : void

Private Methods

Méthode	Description
ModAccCsv ( float modAcc, string path ) : void
Single_Mean ( float sampwin, int sensor_index, int column_index, int start_index, int end_index ) : float
Single_Smooth ( float sampwin, int sensor_index, int column_index, int window ) : float[]
Step_Detection ( float sampwin, int sensor_index ) : List
Sum ( float sequence, int start_index, int end_index ) : float

Method Details

Eulero_Angles() public static méthode

public static Eulero_Angles ( float sampwin, int sensor_index ) : ].float[
sampwin	float
sensor_index	int
Résultat	].float[

EventsCsv() public static méthode

public static EventsCsv ( string events, string path ) : void
events	string
path	string
Résultat	void

Incremental_Ratio() public static méthode

public static Incremental_Ratio ( float sequence ) : float[]
sequence	float
Résultat	float[]

Integral_Space() public static méthode

public static Integral_Space ( float velocity, double frequency, double read_window ) : float[]
velocity	float
frequency	double
read_window	double
Résultat	float[]

Integral_Velocity() public static méthode

public static Integral_Velocity ( float values, double frequency, double read_window ) : float[]
values	float
frequency	double
read_window	double
Résultat	float[]

Mean() public static méthode

public static Mean ( float sequence, int start_index, int end_index ) : float
sequence	float
start_index	int
end_index	int
Résultat	float

Mod() public static méthode

public static Mod ( float sampwin, int sensor_index, int start_index, int end_index ) : float[]
sampwin	float
sensor_index	int
start_index	int
end_index	int
Résultat	float[]

Pitch_Angles() public static méthode

public static Pitch_Angles ( float sampwin, int sensor_index ) : float[]
sampwin	float
sensor_index	int
Résultat	float[]

Roll_Angles() public static méthode

public static Roll_Angles ( float sampwin, int sensor_index ) : float[]
sampwin	float
sensor_index	int
Résultat	float[]

Smooth() public static méthode

public static Smooth ( float sequence, int window ) : float[]
sequence	float
window	int
Résultat	float[]

Standard_Deviation() public static méthode

public static Standard_Deviation ( float sequence, int window ) : float[]
sequence	float
window	int
Résultat	float[]

Yaw_Angles() public static méthode

public static Yaw_Angles ( float sampwin, int sensor_index ) : float[]
sampwin	float
sensor_index	int
Résultat	float[]

Zupt_Algorithm() public static méthode

public static Zupt_Algorithm ( float sampwin, int sensor_index, double frequency, double read_window ) : float[]
sampwin	float
sensor_index	int
frequency	double
read_window	double
Résultat	float[]

createCsv() public static méthode

public static createCsv ( float sampwin, string path ) : void
sampwin	float
path	string
Résultat	void